...if the last time you sampled your lake plankton during the summer holiday, this is like monitoring a temperate forest shortly after the last ice age and claiming you understand the dynamics in the tree populations...
AquaProbe : from Monitoring towards Understanding, Predicting and Managing Plankton in Changing Aquatic Ecosystems
monitoring plankton dynamics
• aquatic ecosystems are under threat • high quality monitoring data vital,
e.g. calibration and validation ecosystem models or DSS
• changes at phytoplankton affect higher trophic levels through trophic cascades
• phytoplankton dynamics incompatible with traditional monitoring
• required automated, stand alone system for sampling, cell counting and classification of phytoplankton
• single instrument; Cytosense / Cytobuoy
key characteristics CytoSense
• large size range, even in the > 1 mm scale (see picture);
• can be adapted for sampling and counting zooplankton
• full particle scans enabling plankton recognition at species level
• large numbers of particles in short periods of time - improving the statistical basis of monitoring data;
• operate autonomously (automated time series);
• easy transport to/from locations, easy mounting without optical alignment etc;
• it can be upgraded for submersible use
AquaProbeAims: 1) Monitoring: to develop robust, innovative tools for the monitoring
of plankton communities in changing aquatic ecosystems2) Patterns: to identify and describe patterns in the detailed time
series of plankton dynamics & to test these patterns against models of community assembly & to define phytoplankton community assembly rules
3) Modeling: to identify the prospects and restrictions for modeling and prediction of plankton dynamics by re-definition of functional groups, using the newly available high frequency monitoring data series
4) Managing: to strengthen the scientific basis for activities in WFD
French-Swiss school of Plant Sociology• plant sociology based upon belief
that local plant community more informative about environment
than individual sp • the status of the ecosystem can
be derived from relationships between plant associations and environmental factors
• community assembly is a non-random process, governed by a set of assembly rules (species coexist because they passed same habitat filters, giving coherent message about status environment)
community assembly